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Magnetocrystalline and Surface Anisotropy in CoFe2O4 Nanoparticles

Alexander Omelyanchik, María Salvador, F. D’Orazio, Valentina Mameli, Carla Cannas, D. Fiorani, A. Musinu, Montserrat Rivas, Valeria Rodionova, Gaspare Varvaro, Davide Peddis

2020Nanomaterials54 citationsDOIOpen Access PDF

Abstract

The effect of the annealing temperature Tann on the magnetic properties of cobalt ferrite nanoparticles embedded in an amorphous silica matrix (CoFe2O4/SiO2), synthesized by a sol-gel auto-combustion method, was investigated by magnetization and AC susceptibility measurements. For samples with 15% w/w nanoparticle concentration, the particle size increases from ~2.5 to ~7 nm, increasing Tann from 700 to 900 °C. The effective magnetic anisotropy constant (Keff) increases with decreasing Tann, due to the increase in the surface contribution. For a 5% w/w sample annealed at 900 °C, Keff is much larger (1.7 × 106 J/m3) than that of the 15% w/w sample (7.5 × 105 J/m3) annealed at 700 °C and showing comparable particle size. This indicates that the effect of the annealing temperature on the anisotropy is not only the control of the particle size but also on the core structure (i.e., cation distribution between the two spinel sublattices and degree of spin canting), strongly affecting the magnetocrystalline anisotropy. The results provide evidence that the magnetic anisotropy comes from a complex balance between core and surface contributions that can be controlled by thermal treatments.

Topics & Concepts

Magnetocrystalline anisotropyMaterials scienceAnnealing (glass)Spin cantingMagnetic anisotropyCondensed matter physicsAnisotropyNanoparticleParticle sizeSpinelAmorphous solidCoercivityMagnetizationMagnetic nanoparticlesGrain sizeNuclear magnetic resonanceNanotechnologyChemical engineeringCrystallographyMetallurgyChemistryMagnetic fieldOpticsPhysicsQuantum mechanicsEngineeringMagnetic Properties and Synthesis of FerritesMultiferroics and related materialsIron oxide chemistry and applications
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